A phantom-node method with edge-based strain smoothing for linear elastic fracture mechanics

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Nam Vu-Bac
  • H. Nguyen-Xuan
  • Lin Chen
  • C. K. Lee
  • G. Zi
  • Xiaoying Zhuang
  • G. R. Liu
  • Timon Rabczuk

Externe Organisationen

  • Tongji University
  • Bauhaus-Universität Weimar
  • Ton Duc Thang University
  • Queensland University of Technology
  • Cardiff University
  • Korea University
  • University of Cincinnati
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Details

OriginalspracheEnglisch
Aufsatznummer978026
FachzeitschriftJournal of Applied Mathematics
Jahrgang2013
PublikationsstatusVeröffentlicht - 25 Juli 2013
Extern publiziertJa

Abstract

This paper presents a novel numerical procedure based on the combination of an edge-based smoothed finite element (ES-FEM) with a phantom-node method for 2D linear elastic fracture mechanics. In the standard phantom-node method, the cracks are formulated by adding phantom nodes, and the cracked element is replaced by two new superimposed elements. This approach is quite simple to implement into existing explicit finite element programs. The shape functions associated with discontinuous elements are similar to those of the standard finite elements, which leads to certain simplification with implementing in the existing codes. The phantom-node method allows modeling discontinuities at an arbitrary location in the mesh. The ES-FEM model owns a close-to-exact stiffness that is much softer than lower-order finite element methods (FEM). Taking advantage of both the ES-FEM and the phantom-node method, we introduce an edge-based strain smoothing technique for the phantom-node method. Numerical results show that the proposed method achieves high accuracy compared with the extended finite element method (XFEM) and other reference solutions.

ASJC Scopus Sachgebiete

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A phantom-node method with edge-based strain smoothing for linear elastic fracture mechanics. / Vu-Bac, Nam; Nguyen-Xuan, H.; Chen, Lin et al.
in: Journal of Applied Mathematics, Jahrgang 2013, 978026, 25.07.2013.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Vu-Bac, N, Nguyen-Xuan, H, Chen, L, Lee, CK, Zi, G, Zhuang, X, Liu, GR & Rabczuk, T 2013, 'A phantom-node method with edge-based strain smoothing for linear elastic fracture mechanics', Journal of Applied Mathematics, Jg. 2013, 978026. https://doi.org/10.1155/2013/978026
Vu-Bac, N., Nguyen-Xuan, H., Chen, L., Lee, C. K., Zi, G., Zhuang, X., Liu, G. R., & Rabczuk, T. (2013). A phantom-node method with edge-based strain smoothing for linear elastic fracture mechanics. Journal of Applied Mathematics, 2013, Artikel 978026. https://doi.org/10.1155/2013/978026
Vu-Bac N, Nguyen-Xuan H, Chen L, Lee CK, Zi G, Zhuang X et al. A phantom-node method with edge-based strain smoothing for linear elastic fracture mechanics. Journal of Applied Mathematics. 2013 Jul 25;2013:978026. doi: 10.1155/2013/978026
Vu-Bac, Nam ; Nguyen-Xuan, H. ; Chen, Lin et al. / A phantom-node method with edge-based strain smoothing for linear elastic fracture mechanics. in: Journal of Applied Mathematics. 2013 ; Jahrgang 2013.
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AU - Vu-Bac, Nam

AU - Nguyen-Xuan, H.

AU - Chen, Lin

AU - Lee, C. K.

AU - Zi, G.

AU - Zhuang, Xiaoying

AU - Liu, G. R.

AU - Rabczuk, Timon

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N2 - This paper presents a novel numerical procedure based on the combination of an edge-based smoothed finite element (ES-FEM) with a phantom-node method for 2D linear elastic fracture mechanics. In the standard phantom-node method, the cracks are formulated by adding phantom nodes, and the cracked element is replaced by two new superimposed elements. This approach is quite simple to implement into existing explicit finite element programs. The shape functions associated with discontinuous elements are similar to those of the standard finite elements, which leads to certain simplification with implementing in the existing codes. The phantom-node method allows modeling discontinuities at an arbitrary location in the mesh. The ES-FEM model owns a close-to-exact stiffness that is much softer than lower-order finite element methods (FEM). Taking advantage of both the ES-FEM and the phantom-node method, we introduce an edge-based strain smoothing technique for the phantom-node method. Numerical results show that the proposed method achieves high accuracy compared with the extended finite element method (XFEM) and other reference solutions.

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